 \documentclass{beamer}
 \setbeamerfont{title}{size=\LARGE}
 \setbeamertemplate{section in toc}[sections numbered]
 \setbeamerfont{frametitle}{size=\large}
 \setbeamertemplate{blocks}[rounded][shadow=true]
 \setbeamertemplate{navigation symbols}{}
 \setbeamertemplate{footline}[frame number]
 \usepackage{booktabs,array,float,amsthm,color}
 \newcommand*{\dif}{\mathop{}\!\mathrm{d}}
 
 \begin{document}
 \title{$ {\Xi_{c}^{0} } \rightarrow  \Xi^{-}  \pi^{+}$}
 \begin{frame}[plain]
 \titlepage
 \end{frame}
 
 \begin{frame}    
 \frametitle{parameters settings} 
 it is 30000 entries that every experiment generated
 \resizebox{\textwidth}{!}
 { 
 \begin{tabular}{cccc}    
 \toprule    
 observables & generationg value & fitting lower limit & upper limit   \\  
 \midrule    
 $ \alpha_{\Xi_{c}^{0}} $ &  -0.64  &  -1      &   1    \\  
 $ \Phi $ for $ \Xi_{c}^{0} \rightarrow  \Xi^{-}  \pi^{+} $       &  -2.1    &  -180    &   180  \\  
corresponding $ \beta_{\Xi_{c}^{0}} $ 	       	                & -0.0281418          & -1       &   1    \\  
corresponding $ \gamma_{\Xi_{c}^{0}} $ 	       	                & 0.767859          & -1       &   1    \\  
 
 $  P_x  $              &  0.1        &  -1      &   1    \\  
 $  P_y  $              &  0.1        &  -1      &   1    \\  
 $  P_z  $              &  0.1        &  -1      &   1    \\  
 $ \Phi $ for $ \Xi^{-} \rightarrow  \Lambda^{0}  \pi^{-} $       &  -2.1    &  -180    &   180  \\  
corresponding $ \beta_{\Xi^{-}} $ 	       	                & -0.0335675          & -1       &   1    \\  
corresponding $ \gamma_{\Xi^{-}} $ 	       	                & 0.9159          & -1       &   1    \\  
 \bottomrule    
 \end{tabular}    
 } 
 \end{frame}    
 \begin{frame}    
 \frametitle{the fit result of singe experiment} 
 \begin{table} 
 \centering 
 \begin{tabular}{cc}    
 \toprule    
 observables & fitting result   \\  
 \midrule    
 $ \alpha_{\Xi_{c}^{0}} $                                             & $ -0.635776 \pm 0.0104701 $   \\  
 $ \Phi $ for $ \Xi_{c}^{0} \rightarrow  \Xi^{-}  \pi^{+} $           & $ -5.86536 \pm 6.92196 $   \\  
 $ \beta_{\Xi_{c}^{0}} $                                              & $ -0.0788787 \pm 0.0925462 $   \\  
 $ \gamma_{\Xi_{c}^{0}} $                                             & $ 0.767832 \pm 0.0127704 $   \\  
 $  P_x  $                                                            & $ 0.0948207 \pm 0.0124385 $   \\  
 $  P_y  $                                                            & $ 0.104245 \pm 0.0124091 $   \\  
 $  P_z  $                                                            & $ 0.0793073 \pm 0.0103094 $   \\  
 $ \Phi $ for $ \Xi^{-} \rightarrow  \Lambda^{0}  \pi^{-} $           & $ -2.83832 \pm 2.07106 $   \\  
 $ \beta_{\Xi^{-}} $                                                  & $ -0.0453622 \pm 0.0330654 $   \\  
 $ \gamma_{\Xi^{-}} $                                                 & $ 0.914954 \pm 0.00163934 $   \\  
 \bottomrule    
 \end{tabular}    
 \end{table} 
 \end{frame}    
 \begin{frame}    
 \frametitle{toy result} 
  There is  experiments has been done  
 \begin{table} 
 \centering 
 \begin{tabular}{ccc}    
 \toprule    
 observables & Mean & RMS   \\  
 \midrule    
 $ \alpha_{\Xi_{c}^{0}} $                                             &  -0.639811 & 0.010178    \\  
 $ \Phi $ for $ \Xi_{c}^{0} \rightarrow  \Xi^{-}  \pi^{+} $           &  -1.89959 & 7.12245   \\  
 $ \beta_{\Xi_{c}^{0}} $                                              &  -0.0252923 & 0.0946522    \\  
 $ \gamma_{\Xi_{c}^{0}} $                                             &  0.762036 & 0.0128672    \\  
 $  P_x  $                                                            &  0.100056 & 0.0129009    \\  
 $  P_y  $                                                            &  0.100257 & 0.0125422    \\  
 $  P_z  $                                                            &  0.100024 & 0.0101158    \\  
 $ \Phi $ for $ \Xi^{-} \rightarrow  \Lambda^{0}  \pi^{-} $           &  -2.04258 & 1.99795   \\  
 $ \beta_{\Xi^{-}} $                                                  &  -0.0326311 & 0.0319053    \\  
 $ \gamma_{\Xi^{-}} $                                                 &  0.914937 & 0.00137678    \\  
 \bottomrule    
 \end{tabular}    
 \end{table} 
 \end{frame}    
 
 \section{fit result}
 \subsection{Xic0}
 \begin{frame}
 	\frametitle{$\alpha_{ \Xi_{c}^{0} }$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/alphaXic.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$\Phi$ for $\Xi_{c}^{0} \rightarrow  \Xi^{-}  \pi^{+}$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/PhiXic.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$\beta_{ \Xi_{c}^{0} }$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/betaXic.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$\gamma_{ \Xi_{c}^{0} }$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/gammaXic.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$P_x$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/Px.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$P_y$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/Py.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$P_z$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/Pz.pdf}
 	\end{figure}
 	\end{frame}
 
 \subsection{Xim}															
 
 	\begin{frame}
 	\frametitle{$\Phi$ for $\Xi^{-} \rightarrow  \Lambda^{0}  \pi^{-}$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/PhiXim.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$\beta_{ \Xi^{-} }$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/betaXim.pdf}
 	\end{figure}
 	\end{frame}
 
 	\begin{frame}
 	\frametitle{$\gamma_{ \Xi^{-} }$}
 	\begin{figure}
 	\centering
 	\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/gammaXim.pdf}
 	\end{figure}
 	\end{frame}
 
 \section{pull distribution}
 \subsection{Xic0}
 		\begin{frame}
 		\frametitle{$\alpha_{ \Xi_{c}^{0} }$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/alphaXic.pdf}
 		\end{figure}
 		\end{frame}
 
 		\begin{frame}
 		\frametitle{$\Phi$ for $\Xi_{c}^{0} \rightarrow  \Xi^{-}  \pi^{+}$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/PhiXic.pdf}
 		\end{figure}
 		\end{frame}
 
 		\begin{frame}
 		\frametitle{$\beta_{ \Xi_{c}^{0} }$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/betaXic.pdf}
 		\end{figure}
 		\end{frame}
 
 		\begin{frame}
 		\frametitle{$\gamma_{ \Xi_{c}^{0} }$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/gammaXic.pdf}
 		\end{figure}
 		\end{frame}
 
 		\begin{frame}
 		\frametitle{$P_x$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/Px.pdf}
 		\end{figure}
 		\end{frame}
 
 		\begin{frame}
 		\frametitle{$P_y$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/Py.pdf}
 		\end{figure}
 		\end{frame}
 
 		\begin{frame}
 		\frametitle{$P_z$}
 		\begin{figure}
 		\centering
 		\includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/Pz.pdf}
 		\end{figure}
 		\end{frame}
 
 \subsection{Xim}
 
 \begin{frame}
 \frametitle{$\Phi$ for $\Xi^{-} \rightarrow  \Lambda^{0}  \pi^{-}$}
 \begin{figure}
 \centering
 \includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/PhiXim.pdf}
 \end{figure}
 \end{frame}
 
 \begin{frame}
 \frametitle{$\beta_{ \Xi^{-} }$}
 \begin{figure}
 \centering
 \includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/betaXim.pdf}
 \end{figure}
 \end{frame}
 
 \begin{frame}
 \frametitle{$\gamma_{ \Xi^{-} }$}
 \begin{figure}
 \centering
 \includegraphics[width=0.6\linewidth]{/home/yukp/fit_ll_angle/Xic02XimPi/Phi2/Polar_10_10_10/joblist/fit_result/../../plot/pull/gammaXim.pdf}
 \end{figure}
 \end{frame}
 
 \end{document}
